Engineering Evolution
Batch & Cyclic Thermal Systems (1994–2012)
Continuous Industrial Systems (2013–Present)
Eco Recycling Energy (E.R.E.) is an engineering-driven initiative focused on the development of modular thermal waste processing and energy conversion systems with industrial applicability.
Our work in thermal waste processing began in 1994, when the first experimental plastic thermal decomposition unit was constructed in Mykolaiv.
The early system operated in batch mode, processing approximately 200 kg of feedstock per cycle and producing around 100 kg of liquid fuel used for enterprise transport.
Between 1995 and 2015, more than fifteen additional installations were designed and built, evolving from batch systems to continuous-operation industrial configurations.
The visual material below documents this technological transition across multiple generations of engineering solutions.
Subsequent development resulted in fully integrated modular industrial systems incorporating continuous thermal processing, automated feedstock handling, multi-stage gas purification, and energy recovery architecture.
These systems represent the current stage of engineering maturity within the Eco Recycling Energy framework.
Patented exhaust gas purification and transformation systems form a critical component of the E.R.E. technological architecture, ensuring controlled emissions and compliance with strict environmental standards.
These engineering solutions provide a scalable technological platform with potential cross-sector applications across industrial and transport segments.
Core engineering solutions developed within Eco Recycling Energy are protected by patented technologies and proprietary technical documentation.
Detailed patent documentation and technical specifications are available upon formal request and subject to confidentiality agreements.
Eco Recycling Energy is positioned as a long-term industrial engineering platform focused on the design, manufacturing, deployment, and lifecycle servicing of modular thermal processing systems.
The development strategy includes mobile units for localized deployment, mid-scale industrial modules, and large-scale waste-to-energy complexes designed for infrastructure-level implementation.